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SpecTr: Fast Speculative Decoding via Optimal Transport

Machine Learning 2024-01-19 v2 Computation and Language Data Structures and Algorithms Information Theory math.IT

Abstract

Autoregressive sampling from large language models has led to state-of-the-art results in several natural language tasks. However, autoregressive sampling generates tokens one at a time making it slow, and even prohibitive in certain tasks. One way to speed up sampling is speculative decoding\textit{speculative decoding}: use a small model to sample a draft\textit{draft} (block or sequence of tokens), and then score all tokens in the draft by the large language model in parallel. A subset of the tokens in the draft are accepted (and the rest rejected) based on a statistical method to guarantee that the final output follows the distribution of the large model. In this work, we provide a principled understanding of speculative decoding through the lens of optimal transport (OT) with membership cost\textit{membership cost}. This framework can be viewed as an extension of the well-known maximal-coupling\textit{maximal-coupling} problem. This new formulation enables us to generalize the speculative decoding method to allow for a set of kk candidates at the token-level, which leads to an improved optimal membership cost. We show that the optimal draft selection algorithm (transport plan) can be computed via linear programming, whose best-known runtime is exponential in kk. We then propose a valid draft selection algorithm whose acceptance probability is (11/e)(1-1/e)-optimal multiplicatively. Moreover, it can be computed in time almost linear with size of domain of a single token. Using this newdraftselectionnew draft selection algorithm, we develop a new autoregressive sampling algorithm called SpecTr\textit{SpecTr}, which provides speedup in decoding while ensuring that there is no quality degradation in the decoded output. We experimentally demonstrate that for state-of-the-art large language models, the proposed approach achieves a wall clock speedup of 2.13X, a further 1.37X speedup over speculative decoding on standard benchmarks.

Keywords

Cite

@article{arxiv.2310.15141,
  title  = {SpecTr: Fast Speculative Decoding via Optimal Transport},
  author = {Ziteng Sun and Ananda Theertha Suresh and Jae Hun Ro and Ahmad Beirami and Himanshu Jain and Felix Yu},
  journal= {arXiv preprint arXiv:2310.15141},
  year   = {2024}
}

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NeurIPS 2023

R2 v1 2026-06-28T12:59:17.445Z